KR101043613B1 - Method for fixing insulation panel - Google Patents

Abstract

PURPOSE: An insulation panel fixing method is provided to fix and couple an insulation panel more perfectly and to prevent the deformation of an insulation panel perfectly. CONSTITUTION: An insulation panel fixing method comprises the steps of: preparing an insulation panel fixture(200) having a saw-tooth portion, which is formed to erect by bending vertically in one direction on two opposite corners of a base plate portion, and a coupling hole, which is formed in the center of the base plate portion and fitted with a piece; driving and coupling two fixtures to cross each other on the front and the backside corresponding to the fixed position of an insulation panel(B) like an expanded resin panel; inserting a piece(P) to penetrate coupling holes on a pair of fixtures coupled to two sides of the insulation panel simultaneously; and driving the front end of the piece to the surface(W) of the building.

Description

Insulation panel fixing method {METHOD FOR FIXING INSULATION PANEL}

The present invention relates to a method for fixing a thermal insulation panel, and more particularly, a pair of them after forming the fasteners in a declination shape and driving the fasteners in a state where they cross each other with respect to the front and rear surfaces of the thermal insulation panel at one fixing position. By inserting the piece to penetrate the building surface to penetrate through the fixture, the insulation panel can be physically perfectly fixed and attached, and the insulation panel fixing method that can completely prevent deformation and dropout of the insulation panel later.

In general, the heat insulation treatment of a constructed building is carried out by attaching a heat insulation panel to the surface of the building, and attaching the heat insulation panels so as to continue to cover the building surface.

The insulation treatment is called 'insulation' if it is carried out on the interior side surface of the building and 'external insulation' when done on the exterior side surface.

Regardless of internal and external thermal insulation, a thermal insulation panel in the form of a plate is usually used for the thermal insulation treatment, and as the thermal insulation panel, a foamed resin panel commonly referred to as styrofoam is widely used.

The material properties of foamed resin panels, such as styrofoam, have fine droplets and air voids inside to block heat transfer, which is very thermally insulated, has good shear and compressive strength, and is particularly lightweight, making construction easier. Can be provided.

As a method of attaching the insulation panel to the surface of the building, a wet method of attaching by means of adhesion between the building surface and the insulation panel through an adhesive chemical, a dry method of physically bonding and fixing using a separate fixture, and There is a semi-dry method that uses a wet method and a dry method.

Among them, the wet method has the advantage of easy installation, but it takes a lot of time to solidify the adhesive chemicals, and in winter, the adhesive chemicals are hardened immediately, so that the construction can not be performed smoothly, and the adhesion may be uneven or incomplete. It is always present, and it can be easily dropped or broken in the state where the adhesive chemical is solidified. If there is a paint layer on the surface of the building, the adhesion can be easily dismantled according to the peeling of the paint layer. There are a number of disadvantages, including the inability to completely block the deformation.

In other words, it is well known that a perfect construction quality cannot be obtained by a wet method using an adhesive chemical.

On the other hand, the dry method is a method of physically attaching and fixing the thermal insulation panel using a separate fastener, first, the fastener is in close contact with the surface of the building to drive them between pieces (ie, screws), and then fixed in front of the fixed fastener. It is carried out by driving and insulated the heat insulation panel with respect to the part which protrudes.

However, the dry method has a disadvantage in that the workability of fixing the fixture to the building surface is difficult.

Therefore, in order to secure more easily constructability by reducing the number of attachments of the fixture while more securely attaching the heat insulation panel, the semi-dry method using the wet method and the dry method will be excellent.

Prior arts related to the semi-dry construction method include "Construction method of building exterior panel" of Korean Patent Registration No. 10-0845245 (hereinafter referred to as "Prior Art 1") and "Building exterior artificial stone of Korean Patent Registration No. 10-0645488" Panel construction method "(hereinafter referred to as" conventional technology 2 "), and" Building exterior materials and its construction structure "(hereinafter referred to as" conventional technology 3 ") of the Republic of Korea Utility Model Registration No. 20-0414118 The figures according to the prior arts 1 to 3 are shown in Figs. 1a to 1c respectively.

According to those prior arts, it can be seen that the adhesive chemicals are applied to the back and rear surfaces of the heat insulation panel in some places, and are also attached physically by using separate fasteners.

They all use the same or similar metal fixtures of the prior art, the fixture 100 is a sawtooth-shaped teeth 120 to be erected at right angles in one direction at four corners of the base plate portion 110 of a constant square form ) Is integrally formed, and the gripping extension plate part 111 is integrally formed at the center upper and lower ends of the base plate part 110, and the coupling hole () is formed on the base plate part 110 or the gripping extension plate part 111. 113 is formed. (The reference numerals are described in accordance with FIG. 1B.)

Here, the toothed portion 120 is formed to be repeated so that the triangular teeth are sharpened toward the tip.

Therefore, the base plate 110 is fixed to the building by being embedded in the building surface (W) after the piece (P) is inserted into the coupling hole 113 in the state in close contact with the building surface (W), The back side of the heat insulation panel is nailed with respect to the tooth | gear part 120, and the heat insulation panel is fixedly coupled.

In the semi-dry method, a portion where two or more adjacent insulating panels meet is fixed by the fixture 100, that is, two or more adjacent insulating panels are fixed and coupled at the same time through one fixture 100.

For reference, the front surface of the insulation panel is typically finished with a separate panel or other elements attached for the addition of the necessary functionality such as reinforcement, non-combustibility, decorativeness, and the like.

That is, a mesh body for reinforcing adhesive strength, a panel for reinforcement or decoration, an adhesive layer, a plastering layer, a finishing layer, and the like are appropriately added to the front surface of the heat insulation panel.

However, the fastener 100 and the fixing method using the same according to the related arts have the following problems.

First, since a large amount of teeth 120 are formed for all four corner portions of the fixture 100, the thermal insulation panel cannot be easily nailed against the teeth 120 of the fixture 100 so that their joining operation is There is a difficult problem.

That is, when the thermal insulation panel is pressed against the toothed portion 120 formed in a large amount, the insulation panel immediately repels and falls back to the rear, thereby making the joining operation very difficult and inconvenient.

This is because a styrofoam insulation panel consists of a combination of foamed droplets and air gaps between them, because when an object is inserted from the outside, it repels immediately upon elastic action.

Second, since only the rear side of the heat insulation panel is embedded in the fastener 100 coupled to the building surface (W), the combined heat insulation panel is easily escaped to the outside during the action of wind pressure or various loads, and thus the coupling is dismantled. There are also problems that can occur.

In this regard, although the thermal insulation panel is bonded through the adhesive, of course, the adhesive alone does not completely prevent the physical bond disassembly, but the physical bond disassembly may disassociate the adhesive bond.

Third, since the heat insulation panel is coupled by the adhesive and the fixture 100 only through the rear side thereof, there is also a problem that the deformation cannot be smoothly blocked when it is later deformed.

That is, the insulation panel having a certain thickness is mainly shrinkage deformation, the shrinkage deformation cannot be completely blocked.

Fourth, since the teeth 120 are formed on all four corners of the fixture 100, there is no part for the worker to grasp it safely for the work, and frequently the worker is injured, construction work is also inconvenient There is also a problem.

Of course, in the prior art, the gripping extension plate 111 is formed on the top and bottom of the center separately for the safe gripping of the worker, but it cannot guarantee the safe and easy gripping completely alone.

The present invention was devised to solve the above-mentioned problems, and can completely block the deformation of the insulation panel while physically fixing the insulation panel more completely, and the insulation panel is also provided with respect to the tooth part of the fixture. It is an object of the present invention to provide a method for fixing a thermal insulation panel that can be easily driven and coupled, and further enable a worker to grip the fixture securely and easily.

The above objects and various advantages of the present invention will become more apparent from the preferred embodiments of the present invention by those skilled in the art.

Insulating panel fixing method of the present invention for achieving the above object is a sawtooth-shaped tooth is formed so as to stand vertically bent in one direction only at two opposite corners of the square base plate portion is formed in the overall deflected shape Preparing a metal fixture having a coupling hole for fastening the piece on the base plate; Driving the two fasteners in a direction crossing each other with respect to the front and rear surfaces corresponding to one fixing position of the thermal insulation panel such as a foamed resin panel; Inserting the piece to simultaneously pass through the coupling hole on the pair of fasteners coupled to both sides of the thermal insulation panel; And allowing the tip of the piece to be embedded in the building surface; It includes.

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According to the present invention, since the fixtures are attached to the building surface with the fasteners inserted into and coupled to both the inside and the outside of the heat insulation panel, the heat insulation panel can be physically perfectly fixed while the deformation of the heat insulation panel can be completely blocked. Finally, the effect of providing extremely good construction quality can be achieved.

In addition, according to the present invention, since a small amount of teeth is formed only at two corners of the fastener, the fastener can be embedded very easily with respect to the heat insulation panel, so that an effect of providing improved construction workability can be achieved. .

In addition, according to the present invention, since the teeth are not formed at all about the two corners of the fixture, the operator can safely and easily grip them through the two corner portions where the teeth are not formed to ensure safety and ease of operation. The effect can also be achieved.

Furthermore, according to the present invention, since the reverse scale is formed on the teeth of the fastener so that it can never fall out after being stuck in the insulation panel, the effect of providing excellent construction quality can also be achieved in this regard. .

Furthermore, according to the present invention, since the mesh sheet is integrally attached and provided together on the outer surface of the base plate portion of the fastener, the adhesion of the adhesive chemical to the fastener can be improved, thereby providing extremely excellent construction quality. Possible effects can also be achieved.

1a to 1c are views showing a method of fixing a thermal insulation panel according to the prior art, respectively,
2a and 2b is a perspective view showing a heat insulation panel fixture according to a preferred embodiment of the present invention,
3 is a perspective view showing a heat insulation panel fixture according to another embodiment of the present invention;
Figure 4 is a perspective view showing a heat insulation panel fixture according to another embodiment of the present invention,
5 is a perspective view showing a heat insulation panel fixture according to another embodiment of the present invention;
Figure 6 is an exploded perspective view showing a method for fixing an insulating panel according to a preferred embodiment of the present invention,
7 is a perspective view showing a state in which the heat insulation panel is fixed in accordance with a preferred embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2A and 2B are perspective views illustrating a heat insulation panel fixture according to a preferred embodiment of the present invention, FIG. 6 is an exploded perspective view illustrating a heat insulation panel fixing method according to a preferred embodiment of the present invention, and FIG. 7 is a preferred view of the present invention. It is a perspective perspective view which shows the state in which the heat insulation panel was fixed according to the Example.

Referring to the drawings, the thermal insulation panel fixture 200 according to the present invention, the sawtooth-shaped teeth 214 is vertically bent and erected in one direction at two opposite corners of the base plate portion 210 of a certain square shape Formed, and thus it has an overall deflector shape.

And, the coupling hole 212 for inserting the piece (P) at a specific position on the base plate portion 210, preferably the central position is formed, the position and the number of the coupling hole 212 is not particularly limited. Do not.

Of course, the coupling hole 212 may be formed on an extension plate portion that can be formed to extend from one side of the base plate portion 210 as in the prior art.

The tooth portion 214 on the fixture 200 is a portion that is nailed to the thermal insulation panel B, which is formed to be repeatedly arranged so that the triangular teeth 214a, which become sharper toward their respective ends, are lined up.

Here, the teeth 214a are each pointed and sharply formed only need to be easily embedded in the thermal insulation panel (B), it does not have to be a triangular shape as shown, for example, as shown in FIG. May be

And, the fixture 200 is made of a metal material, in particular may be made of a corrosion-resistant coated iron material or a stainless material excellent in corrosion resistance.

The fixture 200 can be easily manufactured by cutting, punching, and bending a metal plate in series.

In physically fixing the thermal insulation panel B to the building surface W by using the fixture 200, the directions in which the front and rear sides of the thermal insulation panel B cross each other at one fixing position are intersected with each other. As a result of being stuck in the state of the defect, the thermal insulation panel B is firmly coupled by the quadrangular teeth 214 formed by the inner and outer fasteners 200.

And, in a state in which the pair of fasteners 200 are coupled to the thermal insulation panel B, the pieces P are driven to penetrate the coupling holes 212 on the pair of fasteners 200 at the same time so that the building surface W By embedding in the insulation panel B is firmly fixedly coupled to the building surface W.

Of course, the piece piece P passes through the insulation panel B, but its penetration can be carried out very easily.

That is, according to the present invention, the pair of fasteners 200 restrains the heat insulation panel B from both sides in one fixing position and couples them together.

Thus, the heat insulation panel (B) can be completely locked in any direction in the inner and outer directions in the bonded state can be completely fixed, the deformation can be completely blocked later.

In addition, since only a small amount of teeth 214 is formed at two corners of the fixture 200, the teeth 214 of the fixture 200 can be easily and accurately nailed without being repulsed with respect to the insulation panel B. have.

In addition, since the teeth 214 are not formed at all about the two corners of the fixture 200, the operator can safely and easily grip the two corners.

In this regard, the fixing position by the fastener 200 may preferably be a portion where at least two heat insulating panels B meet, and the fastener 200 simultaneously combines the insulating heat insulating panels B that meet each other. Can bind to each other.

In this case, preferably, in fixing a portion where three or more insulation panels B meet, a pair is combined inside and outside, and one portion is coupled only to the outside for a portion where two insulation panels B meet. Can be.

For reference, the thermal insulation panel B may be continuously attached to the building surface W in a vertical direction, or may be continuously attached to a masonry arrangement.

The fastener 200 and the fixing method using the same according to the present invention can be suitably used regardless of a dry method and a semi-dry method.

Referring to another embodiment of FIG. 4, the fixture 200 according to the invention also has an inverse scale portion 214a-1 on the teeth 214a of the tooth portion 214, which is connected to the thermal insulation panel B. Once lodged, it may be hooked by its inverse scale portion 214a-1 so that it never falls outward.

At this time, the reverse scale portion (214a-1) is formed so as to protrude laterally toward the inner side rather than the outer side of the tooth (214a) is preferably formed so as not to interfere with the operator or the surrounding objects as much as possible.

Of course, the reverse scale portions 214a-1 need not be formed one for each tooth 214a, respectively.

Referring to another embodiment of Figure 5, the mesh sheet 216 is integrally attached to the outer surface of the base plate portion 210 of the fixture 200, the mesh sheet 216 of the adhesive chemical thereto Increase adhesion.

Accordingly, the outer side of the base plate portion 210 of the fixture 200 can be firmly bonded to other panels or elements.

That is, the fixture 200 may be manufactured and supplied with the mesh sheet 216 attached on the outer surface of the base plate portion 210.

In this case, the mesh sheet 216 may be formed to repeat the ridges and depressions, or may be repeatedly formed holes.

In the foregoing description, it should be understood that those skilled in the art can make modifications and changes to the present invention without changing the gist of the present invention as merely illustrative of a preferred embodiment of the present invention.

200: fixture 210: base plate portion
212: coupling hole 214: toothed part
214a: tooth 214a-1: reverse scale
216: mesh sheet P: piece
B: insulation panel W: building surface

Claims (4)

delete delete delete A metal member having a sawtooth-shaped tooth portion formed so as to be vertically bent and erected in one direction only at two opposite edges of the square base plate portion, which is formed in a declination shape as a whole, and a coupling hole for fastening a piece is formed on the base plate portion. Preparing a fixture;
Driving the two fasteners in a direction crossing each other with respect to the front and rear surfaces corresponding to one fixing position of the thermal insulation panel such as a foamed resin panel;
Inserting the piece to simultaneously pass through the coupling hole on the pair of fasteners coupled to both sides of the thermal insulation panel; And
Allowing the tip of the piece to be embedded in the building surface; Method of fixing the insulation panel comprising a.

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